FR3002306A1 - Optical module for lighting and/or signaling device i.e. front and rear headlight, in car, has blocking element including organic LED to emit secondary light rays participating in lighting and/or signaling regulatory function - Google Patents

Abstract

The optical module (3) has a main light source (7) for forward emission of primary light rays (R1). A blocking element (11) is arranged in front of the main light source, so as to block a portion of the primary light rays. The blocking element includes an organic LED (11A) to emit secondary light rays (R2) participating in a lighting and/or signaling regulatory function. The blocking element includes a reflective rear face directed towards the main light source, and a front face (14) opposed to the rear face. An independent claim is also included for a lighting and/or signaling device.

Description

Optical module comprising a blackout element. The present invention relates to lighting and / or signaling devices, including headlights and rear lights of motor vehicles. Although it is particularly suitable for motor vehicles, the present invention is not however limited to this application and could equally well be implemented for example in fixed lighting devices.

It is known that a front headlamp of a motor vehicle usually comprises: a housing closed at its front end by a transparent element in the form of an ice cream; and an optical module housed inside the housing and capable of producing a main light beam towards the front of the vehicle. Such an optical module is generally equipped with a concave reflector interposed between the window and the housing, and a main light source housed in the concavity of the reflector. When illuminated, the main source is capable of emitting light rays in multiple directions, a portion of which is reflected against the inner face of the reflector to form the main light beam after crossing the ice, interposed in front of the reflector. light source. However, some light rays emitted by the source pass directly to the ice without reflection on the inner face of the reflector, so that, after crossing the ice, they form one or more auxiliary beams, whose inclination towards the road is significantly reduced compared to that of the main beam. The reduced inclination of auxiliary light beams is thus causing glare for drivers arriving in the opposite direction, which, in addition to the discomfort caused to them, increases the risk of accidents.

To overcome this drawback, it is known to interpose an occluder in front of the light source of the optical module to prevent light rays not reflected by the inner face of the reflector from reaching the ice. Indeed, when it is arranged on the optical path of the light rays not reflected by the reflector, such an occluder prevents their propagation in the direction of ice, which prevents the formation of parasitic auxiliary light beams. The present invention is intended to improve such a concealer.

For this purpose, according to the invention, the optical module, in particular for a lighting and / or signaling device, comprising: at least one main light source capable of emitting main light rays towards the front; and at least one occulting element which is arranged in front of the main source, so as to be able to conceal at least a portion of the main light rays emitted by it, is remarkable in that said occulting element comprises a source surface secondary luminaire capable of emitting secondary light rays participating in a lighting function and / or regulatory signaling. In a particular embodiment of the present invention, the lighting function and / or regulatory signaling is at least one of the regulatory photometric functions belonging to the following group: a function of position lights; a low beam function; a high beam function; a fog lamp function; a flashing function. Thus, by virtue of the invention, the occulting element makes it possible to concomitantly perform the following two distinct functions: an occulting function for blocking at least a portion of the light rays emitted by the main light source which intercept said occulting element; and a lighting and / or signaling function which can be combined with the lighting and / or signaling function of the main light source or, on the contrary, form lighting independent of that coming from said main source. In this way, it is possible to reduce the bulk of the optical module and, consequently, of the lighting and / or signaling device.

According to another embodiment according to the present invention, the surface secondary light source comprises at least one organic electroluminescence diode, also called OLED. The blackout element may comprise a rear face oriented towards the main source and a front face opposite to the rear face.

In addition, the rear face of the blackout element can absorb, at least in part, the main light rays that reach it. For example, an absorbent coating deposited on the rear face of the concealing element may be provided. This coating may have an absorption coefficient of 75% or even 90%.

As a variant, the rear face of the occulting element may be reflective. This characteristic makes it possible in particular to reflect the light rays emitted by the main source. In this way, one can intensify the main light beam, leaving the module, formed from the main light rays. This rear face may for example be made by a metal electrode of the secondary surface light source. The front face of the blackout element can be made by a transparent electrode of the secondary surface light source, for example made of indium tin oxide (ITO). In addition, the blackout element may comprise, between the front face and the rear face, a reflective layer. In this way, the main source is preserved from the outside rays coming from the sun which could deteriorate it by excessive heating. This reflective layer may for example be made by a metal electrode of the secondary surface light source.

According to one characteristic of the invention, the secondary surface light source extends over at least 80%, if not all, of the surface of the front face of the occulting element. Preferably, the optical module comprises a reflector, for example concave, adapted to reflect at least a portion of the main light rays emitted by the main source. If necessary, the blackout element may be arranged relative to the reflector so that a portion of the secondary light rays emitted by the surface secondary light source is reflected by said reflector. It may be provided that the reflector has a generally ellipsoidal shape. If desired, the optical module may include a focusing element arranged to cooperate with the reflector and the main source so as to form a lighting function and / or main signaling. Alternatively, the reflector may have a generally parabolic shape. In this case, the reflector can cooperate alone with the main source so as to form a main lighting and / or signaling function. In addition, the free end of the upper wall of the reflector may advantageously extend longitudinally forwardly beyond the free end of the bottom wall of the reflector. In this case, the oc- cupant element may be disposed below the elongate upper wall of said reflector. In particular, the secondary surface light source is able to emit secondary light rays in the direction of the reflective elongate upper wall of the reflector.

The present invention also relates to a lighting and / or signaling device comprising: a housing closed at its front end by a transparent element; and an optical module as described above which is housed inside the housing. Furthermore, the present invention also relates to a motor vehicle which comprises at least one lighting and / or signaling device as described above. The figures of the appended drawing will make it clear how the invention can be realized. In these figures, identical references denote like elements. Figure 1 shows, in a schematic cross section, an example of a lighting device and / or signaling according to the present invention, the blackout element being disabled and the main light source on. Figure 2 is a figure similar to Figure 1, the blackout element being activated and the main light source on. In Figure 1, there is shown schematically a lighting device and / or signaling before 1 of a motor vehicle (hereinafter referred to as front projector), according to the present invention. Of course, the present invention is not limited to front headlamps, but also applies, for example, to the rear lights of motor vehicles. By convention, in the remainder of the description: the notions "low" and "high" refer, respectively, to the lower and upper parts of FIGS. 1 and 2; and the notions "front" and "rear" are defined with reference to the right and left sides of Figures 1 and 2. As shown in Figure 1, the front projector 1 has a housing 2 (also referred to as "rear block" or "block"). "optics") which serves as a support piece on which are mechanically reported one or more optical modules 3 (only one module is shown in the figures). The housing 2 is closed at its front end by a transparent element 4 which is in the form of an ice, for example glass or polycarbonate. The housing 2 further allows the front projector 1 to be connected to the vehicle (not shown). For this, it comprises a plurality of attachment points (to which are associated for example threads) to ensure a stable mechanical connection with the vehicle.

The optical module 3, housed inside the housing 2, is able to produce a main light beam F1 towards the front of the vehicle, through the active surface 5 of a diopter 6. In the example of the figures, the Optical module 3 is of elliptical type. It comprises a main light source 7 arranged inside the cavity 8 of a concave reflector 9 of ellipsoidal shape, open towards the front in the direction of the glass 4. The reflector 9, interposed between the rear bottom of the 2 and the casing 4, directs the light rays R1 emitted by the main source 7 to the diopter 6. Although it may be in the form of a discharge lamp using a Xenon type gas, the source main light 7 is advantageously formed of one or more light-emitting diodes at the origin of the light rays R1, defining the beam F1 projected on the road. The main source 7 is mounted on the substantially flat lower inner wall 9B of the reflector 9 and is arranged such that the light rays R1 that it emits, once lit, are reflected by said reflector 9 in the direction of the diopter 6 A main control module 10, for example in the form of an electronic card, is connected to the main source 7 to alternately control its ignition and extinction. In the example shown in FIGS. 1 and 2, the diopter 6 is formed by the front surface (corresponding to the active surface 5) of a convex or bi-convex lens, which refracts predominantly the light rays R1 reflected by the reflector 9. The diopter 6 is disposed in front of the reflector 9 and the main source 7. In particular, it is placed in front of a focus of the reflector 9 on the path of the reflected main rays R1.

According to the invention, as shown in FIGS. 1 and 2, the front projector 1 also comprises a concealer 11 interposed between the main source 7 and the diopter 6, so as to be able to conceal at least part of the light rays R1 emitted by the -this. The concealer 11 is formed by a secondary surface light source 11A capable of emitting, once activated, secondary light rays R2 participating in a lighting function and / or regulatory signaling. An auxiliary control module 12 (for example an electronic card) is electrically connected to the concealer 11, so as to control the activation or deactivation of the light source 11A.

The auxiliary control module 12 may be connected to the main control module 10 which controls it or, alternatively, to a separate control device (not shown in the figures), able to control each of the main control and auxiliary control modules 12 It should further be noted that in the example, the shield 11 is integrally formed by the secondary surface light source 11A. In other words, the shield 11 and the light source 11A are combined and form a single piece. Of course, alternatively, the light source 11A could be reduced to only a portion of the shield 11. In the example of FIGS. 1 and 2, the shield 11 is formed by one or more organic light-emitting diodes (also designated by the acronym OLED, for "Organic Light-Emitting Diode"). The structure of the OLED diode comprises a superposition of several organic semiconductor layers arranged between two electrodes, not shown, at least one of which is oriented forward is transparent.

By lighting function and / or statutory signaling means: - a position lights function; - a dipped beam function; - a high beam function; - a fog lamp function; - a flashing function. In the example of the figures, the concealer 11 is integrated in the optical module 3 and is positioned slightly in front of the free end of the flat bottom wall 9B of the reflector 9. In a variant, it may be mounted integral with the bottom wall 9B. The concealer 11 has a rear face 13 facing the reflector 9 and a front face 14 opposite the rear face 13 and facing the diopter 6. The rear face 13 of the concealer 11 is able to absorb the light rays R1 of the main source 7 without thinking, which prohibits their propagation. For this, a layer of black paint can be applied to the electrode of the OLED 11A facing backwards. Alternatively, the rear face 13 could have a reflective character, in order to return to the reflective inner walls of the reflector 9 the light rays R1 emitted by the main source 7, so as to intensify the light beam F1. This rear face 13 could, in this case, be performed by the electrode behind the OLED 11A, this electrode being made for example of aluminum. In addition, the profile of the rear face 13, defined in a cross section of the occulter 11, comprises a concavity. In this way, the light rays emitted by the main source 7 and reaching the rear face 13 are collected and concentrated towards the reflector 9. Furthermore, the contour of the rear face of the shield 11 is arranged so that the most of the cone of direct light is intercepted by the concealer 11. This cone of direct light is defined as the cone formed by all the main rays R1 emitted by the main source 7 directly to the diopter 6. The contour can thus be defined by the intersection of any surface with the cone of direct light. Any surface will be chosen so that the area of the rear face 13 is as small as possible without being able to receive a cone of direct light too concentrated. In this way, the occluder will not intercept rays coming from the main reflector 9 and will not be subjected to too high thermal stresses due to the heating of the main source 7. In addition, the front face 14 of the occultor 11 is transparent. This front face 14 is formed by the front electrode of OLED 11A, this front electrode being made of indium-tin oxide. The back electrode of the OLED 11A having a reflective character, the outer rays coming from the sun and passing through the front face 14 are reflected by the back electrode of the OLED and dispersed in the case 2, which makes it possible in particular to preserve the main source 7. Furthermore, as shown in Figure 2, the secondary surface light source 11A is, once activated, capable of emitting secondary light rays R2 in a plurality of directions. The light rays R2 pass through the front face 14 of the substantially planar blanking device 11 to meet the diopter 6 in order, for example, to intensify the main light beam F1 formed by the radii R1 (in the latter case, the light zone 11A can participate in a high beam function of the optical module 3). Alternatively, an auxiliary device for focusing the light rays R2 may be provided and integrated in the optical module 3, so as to form an auxiliary light beam independent of the main beam F1. In addition, in the example, the free end of the upper wall 9A of the reflector 9 extends longitudinally forwards beyond the free end of the bottom wall 9B of the reflector 9, so that the opening reflector 9 has an inclined transverse profile.

The shield 11 is arranged relative to the reflector 9, so as to be covered by the upper wall 9A, whose inner face facing the shield 11 is reflective. Thus, when light rays R2 emitted by the light source 11A pass through the upper lateral face 15 of the concealer 11, these rays R2 are reflected by the upper wall 9A. This allows, for example, to form an auxiliary source of diffuse light.

Claims (12)

REVENDICATIONS1. Optical module (3), in particular for a lighting and / or signaling device, comprising: at least one main light source (7) able to emit main light rays (R1) towards the front; and at least one blackout element (11) which is arranged in front of the main source (7), so as to be able to mask at least part of the main light rays (R1) emitted by the latter, characterized in that said element the blackout (11) comprises a surface secondary light source (11A) capable of emitting secondary light rays (R2) participating in a lighting function and / or regulatory signaling. 2. Module according to the preceding claim, wherein the surface secondary light source (11A) comprises at least one organic electroluminescence diode. 3. Device according to one of the preceding claims, wherein the blackout element comprises a rear face (13) facing the main source (7) and a front face (14) opposite the rear face (13). 4. Module according to the preceding claim, wherein the rear face (13) of the blackout element (11) absorbs, at least in part, the main light rays (R1) that reach it. 5. Module according to claim 3, wherein the rear face (13) of the blackout element (11) is reflective. 6. Module according to one of claims 3 to 5, wherein the front face (14) of the blackout element (11) is transparent. 7. Module according to one of the preceding claims, wherein the surface secondary light source (11A) extends over at least 80%, or all, of the surface of the front face of the blackout element. 8. Module according to one of the preceding claims, comprising a reflector (9), preferably concave, adapted to reflect at least a portion of the main light rays (R1) emitted by the main source (7) and wherein the element blackout (11) is arranged with respect to the reflector (9) so that a part of the secondary light rays (R2) emitted by the surface secondary light zone (11A) is reflected by said reflector (9). 9. Module according to the preceding claim, wherein the free end of the upper wall (9A) of the reflector (9) extends longitudinally forwardly beyond the free end of the bottom wall (9B). reflector (9), the concealment element (11) being arranged below the elongate upper wall (9A) of said reflector (9). 10. Module according to the preceding claim, wherein the surface secondary light source (11A) is capable of emitting secondary light rays (R2) in the direction of the elongate reflective upper wall (9A) of the reflector (9). 11. A lighting and / or signaling device (1) comprising: - a housing (2) closed at its front end by a transparent element (4); and an optical module (3) according to one of claims 1 to 10 which is housed inside the housing (2). 12. Motor vehicle, characterized in that it comprises at least one lighting and / or signaling device (1) according to claim 11.